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| United States Patent |
6,151,841
|
|
Green
|
November 28, 2000
|
Prefabricated portable tornado shelter
Abstract
An inexpensive, prefabricated portable tornado shelter is disclosed. The
shelter is assembled from four equilateral triangular sides, a base frame,
and a floor, to form a square pyramid-shaped enclosure with latched doors
and PLEXIGLAS windows. The shelter allows constant air pressure
equalization between its interior and exterior. The shelter is held firmly
to the ground with four auger bolts.
| Inventors:
|
Green; Thomas H. (P.O. Box 9, Mill Shoals, IL 62862)
|
| Appl. No.:
|
274193 |
| Filed:
|
March 22, 1999 |
| Current U.S. Class: |
52/79.4; 52/79.5; 52/82; 52/169.1; 109/1S |
| Intern'l Class: |
E04H 009/14 |
| Field of Search: |
52/79.4,79.5,36.1,36.2,169.1,169.6,23,82,DIG. 14
109/1 S
|
References Cited
U.S. Patent Documents
| 288354 | Nov., 1883 | Mileham | 52/169.
|
| 302463 | Jul., 1884 | Alexander | 52/169.
|
| D306760 | Mar., 1990 | Anderson | D25/16.
|
| 490779 | Jan., 1893 | Zimmerman | 52/82.
|
| 1275476 | Aug., 1918 | Roy | 52/36.
|
| 4790109 | Dec., 1988 | Whidden | 52/79.
|
| 4955166 | Sep., 1990 | Qualline et al. | 52/169.
|
| 5930961 | Aug., 1999 | Beaudet | 52/169.
|
| 5979128 | Nov., 1999 | Parsons | 52/169.
|
Other References
"Steel `Tent` and Concrete `Igloo` Resist Bombs", Popular Mechanics, vol.
74, p. 505, Oct. 1940.
"Averting Death from the Skies", Popular Mechanics, vol. 75, pp. 648, May
1941.
"Bomb-Resistant House Set Up in 23 Minutes", Popular Mechanics, vol. 75, p.
26, Jun. 1941.
|
Primary Examiner: Callo; Laura A.
Attorney, Agent or Firm: Bahn; Peter R.
Parent Case Text
PRIOR APPLICATION DATA
This is a formal patent application based on a provisonal patent
application, Serial No. 60/086,483 filed May 26, 1998.
Claims
What is claimed is:
1. A tornado shelter comprising a square pyramid-shaped enclosure with
equilateral triangular sides, which possesses a door or doors and one or
more windows, and which is held firmly to the ground with auger bolts, and
wherein the said windows are air outlets and wherein the said shelter
possesses one or more air inlet vents and wherein the said doors possess a
latching mechanism.
2. A tornado shelter as described in claim 1 wherein the said shelter has a
metal beam base frame.
3. A tornado shelter as described in claim 2 wherein the said base frame is
reinforced by metal cross-beams.
4. A tornado shelter as described in claim 3 wherein the said shelter has
one or more wooden floor boards that rest on top of the said reinforced
base frame.
5. A tornado shelter as described in claim 4 wherein the said base frame is
held together by three-sided brackets through which the said auger bolts
are screwed into the ground.
6. A tornado shelter as described in claim 5 wherein the sides of the said
shelter are made of metal.
7. A tornado shelter as described in claim 6 wherein the said metal is
steel.
8. A tornado shelter as described in claim 7 wherein the said window or
windows are made of clear PLEXIGLAS.
9. A tornado shelter as described in claim 8 wherein the said shelter can
be assembled and disassembled to and from a set of four equilateral
triangular sides, four floor boards, base frame beams, machine bolts, and
four auger bolts.
10. A tornado shelter as described in claim 9 wherein the said doors and
windows are trapezoid-shaped.
11. A tornado shelter as described in claim 10 wherein the edges of the
said shelter all measure eight feet long.
12. A tornado shelter comprising a steel square pyramid-shaped enclosure
with equilateral triangular sides, which possesses trapezoid-shaped doors
having a latching mechanism and one or more trapezoid-shaped PLEXIGLAS
windows which are air outlets and one or more air inlet vents, which
shelter possesses a steel base frame with steel reinforced cross-beams and
four wooden floor boards that rest on the said base frame, the said base
frame being held firmly to the ground by three-sided brackets which hold
the base frame together and through which four auger bolts are screwed
into the ground, and wherein the said shelter can be assembled and
disassembled to and from a set of four equilateral triangular sides, four
floor boards, base frame beams, machine bolts, and four auger bolts.
Description
FIELD OF THE INVENTION
This invention fits into the general field of shelters. More particularly,
it fits into the field of adverse weather shelters. Most specifically, the
invention is located in the field of tornado shelters.
BACKGROUND OF THE INVENTION
Every year around the globe a number of people are killed by tornadoes
which are deadly air funnels with winds moving at 100 to 250 miles per
hour. Tornadoes travel forward at an average speed of 35 miles per hour
and their paths have an average width of 141 yards (The Audubon Society
Field Guide to North American Weather by David M.Ludlum, published by
Alfred A. Knopf, New York, 1991). Because of their awesome destructive
power, when a tornado is sited it is important for human beings to get
into a strong protective shelter fast. The invention to be described here
is just such a tornado shelter.
A survey of prior art in the field of tornado shelters reveals the
following. U.S. Pat. No. 302,463 issued to Francis K. Alexander in 1884,
entitled "Tornado Proof Building", discloses a cylindrical shaped building
with a conical roof and a semi-conical flange at its base which is buried
in the ground to provide extra stability. However, the said building is
not prefabricated. It must be constructed at the site. Also it is not
portable.
U.S. Pat. No. 592,190 issued to Richard T. Bond in 1897, entitled, "Cyclone
Refuge", discloses a generally cylindrical shelter which normally sits
above ground but which may be lowered by a winch and ropes into a
cylindrical hole in the ground when a cyclone or tornado is imminent. The
shelter itself might be prefabricated, but its protective hole and the
hole's lining must be constructed at the site and is not portable.
U.S. Pat. No. 4,126,972 for a "Tornado Protection Building" issued to Almer
Silen in 1978 discloses a box-shaped metal-walled room with reinforcement
beams in the walls and steal girders at its base which are firmly anchored
in the foundational concrete slab of a house in which the said room is
located. This shelter is meant to be constructed at site inside a house
without a basement. It is neither prefabricated nor portable.
U.S. Pat. No. 4,615,158 for a "Mobile Home Tornado Shelter" issued to
Sandra K. Thorton in 1986 discloses a cylindrically shaped shelter that is
buried in the ground and which contains a passageway for access directly
into the shelter from the mobile home. It is pointed out here that mobile
homes have neither basements nor are they wind resistant enough to
withstand the destructive force of a tornado. This shelter may be
prefabricated but it is not portable.
U.S. Pat. No. 4,955,166 for a "Tornado Underground Shelter" issued to Steve
M. Qualine and Louis R. Dunnam in 1990 discloses a prefabricated trucated
globe-shaped shelter which is buried in the ground and contains a short
stairway and door leading to the surface of the ground. Although it is
prefabricated, once the shelter is buried in the ground, it is no longer
portable.
In view of the prior art, it was an object of the present inventor to
design a tornado shelter that was simple, inexpensive, prefabricated, easy
to assemble and to disassemble, and portable. These objects were
accomplished in the present invention to be described herein.
SUMMARY OF THE INVENTION
Underground tornado shelters are probably safer than above-ground tornado
shelts. However underground construction costs are greater than
above-ground construction costs. Also, underground shelters cannot be
moved; they are not portable. Also, some ground locations are not suitable
for underground shelters because of a high water table underneath the
ground which results in any shelter built there being flooded most of the
time.
The only alternative to underground shelters is above-ground shelters. The
safest type of above-ground shelters are massive concrete-and-steel-girder
buildings, but such buildings are expensive and certainly not portable.
Houses made of wood are vulnerable to tornadoes due to their high wind
resistance and low structural strenght. Mobile homes are spectacularly
susceptible to Tornado destruction because of their high wind resistance,
low structural strength and light weight.
An ideal solution to the above problems would be to find a tornado shelter
that is made of inexpensive materials, that can be prefabricated, that is
light enough to be portable but heavy enough for its size not to be blown
away in very high winds, and that has a relatively low wind resistance.
With regard to wind resistance in above-ground structures, a spherical dome
would be expected to have the lowest all-around wind resistance. However,
curved surfaces are not as easy to work with or manufacture as are planar
surfaces. A rectangular structures with their planar surfaces are easy to
work with but rectangular structures have the highest wind resistances.
A solution to these types of problems is to make an above-ground tornado
shelter in the shape of a pyramid. A pyramid uses only planar surfaces
that are easy to work with and less expensive to make than curved
surfaces. A pyramid also has low wind resistance because winds coming to
it from any horizontal direction will always be hitting it obliquely, a
component vector of such wind force actually driving the said pyramid more
deeply into the ground.
There are a number of different possible pyramids. For example there are
trigonal pyramids, quadrangular pyramids, pentagonal pyramids, and so on.
A trigonal pyramid will have a triangular base and three faces, a
quadrangular pyramid will have a retangular base and four faces, a
pentagonal pyramid will have a pentagonal base and five faces, etc.
Among the different types of pyramid, the square pyramid with four
equilateral triangular face appears to be one of the most stable, simple,
and elegant structues possible. The famed Egyptian pyramids constructed as
tombs for the Pharoahs and which have survived 3,000 years of sandstorms
are made in the shape of square pyramids with equilateral triangular
faces.
For the above reasons, this invention is a tornado shelter in the shape of
a square pyramid with four equilateral triangular faces and a square base.
In other words, this tornado shelter is shaped just like the ancient
Egyptian pyramids. One face of the pyramid structure has a set of doors
and the other three faces of the structure have windows made of PLEXIGLAS,
a transparent shatter-resistant plastic. Only two types of triangular
faces need be made in a factory, a door face and a window face, since the
three window faces are identical.
The triangular walls or faces of the tornado shelter are preferably made of
steel such as galvanized steel sheet, although they could also be made of
other materials such as fiberglass or even wood.
The square base floor of the shelter is preferrably made of wood broken
down into four square parts for ease of assembly. However, the floor could
also be made of other materials such as steel or fiberglass.
The base of the pyramid is preferrably formed around a square steel beam
frame reinforced by steel cross-beams, but wooden beams or fiberglass
beams could also be used for this purpose.
Attached to each inside corner of the base frame are steel three-sided
corner brackets which hold the beams of the square frame together. Four
auger bolts are screwed through the bottom, holes of the brackets and into
the ground to secure the tornado shelter firmly to the Earth.
In the preferred embodiment of this tornado shelter, all metal to metal and
all PLEXIGLAS to metal contacts have weather stripping materials between
them, such weather stripping being composed of a waterproof material such
as rubber, chemical foam, or soft plastic. The use of weather stripping
ensures that the tornado shelter remains water resistant.
The tornado shelter disclosed here can be built in different sizes.
However, in the preferred embodiment of the invention, the edge of the
tornado shelter measures exactly eight feet, so that before assembly, the
main components of the shelter are four equilateral triangular walls
measuring eight feet along each edge, four floor boards measuring almost
four feet on each side, and assorted beams, brackets, and bolts. Thus, the
tornado shelter, in its prefabricated, unassembled state can be packed in
a flate container and easily transported over the highways in a small
truck. Even in its assembled state, the tornado shelter is light enough to
be transported over the highways is a medium sized truck. Of course, the
tornado shelter, after having been used at one location, can be
disassembled, transported elsewhere, and reassembled at the new location.
In summary, the tornado shelter presented here is inexpensive,
prefabricated, and portable.
DESCRIPTION OF THE DRAWINGS
The preferred embodiment of this invention is displayed in the accompanying
drawings.
FIG. 1 shows an elevated perspective view of the tornado shelter ready to
resist an oncoming tornado.
FIG. 2 shows the prefabricated main components of the tornado shelter prior
to assembly.
FIG. 3 shows a front view of the tornado shelter with the doors closed and
latched.
FIG. 4 shows a front view of the tornado shelter with the doors open.
FIG. 5 shows a side view of the tornado shelter.
FIG. 6 shows a top view of the tornado shelter.
FIG. 7 shows a bottom view of the tornado shelter.
FIG. 8 shows a cross-sectional view of the tornado shelter taken along the
lines 8--8 of FIG. 6.
FIG. 9 shows a cross-sectional view of an air inlet vent of the tornado
shelter taken along the lines 9--9 of FIG. 6.
FIG. 10 shows a three-sided bracket used to hold the base frame of the
shelter together and to secure the shelter to the ground with auger bolts.
Finally, FIG. 11 shows a cross-sectional view of the shelter door latch
mechanism taken along the lines 11--11 of FIG. 8.
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an elevated perspective view of the tornado shelter ready to
resist an oncoming tornado. The shelter 10 is firmly anchored to the
ground 13 by auger bolts which cannot be seen in this figure. Visible is
the horizon 15, the sky 9, clouds 17, and the tornado 11. The tornado
shelter 10 possesses the shape of a square pyramid with equilateral
triangular faces, each edge of the pyramid measuring eight feet. The front
face or side 14 of the shelter is shown. With the doors 46 and 50 latched
shut with the door latch assembly 58. The front side 14 of the shelter
also has two air inlet vents 19, each such vent having air ingress panels
21 and 25, and inward opening lids 23. The air inlet vents 19 allow air
pressure equalization when air pressure outside the shelter is greater
than inside the shelter. Also seen in FIG. 1 is one of the sides 18 of the
shelter 10. This side (and also the two remaining sides) possesses a
window assembly 34 including a window pane 62. The front side 14, the
shown window side 18, and the two other remaining window sides of the
shelter 10 all meet at the apex 30 of pyramid shaped shelter.
FIG. 2 shows the prefabricated main components of the tornado shelter prior
to assembly. The components can all be packed in a relatively flat
container box for ease of transportation while shipping the shelter or
relocating it after disassembly. Shown are the the front side 14 of the
shelter with its doors 46 and 50, the door-closing latch assembly 58 and
air inlet vents 19. Also shown are the three window sides 18, 22, and 26,
of the shelter, each such side containing a window assembly 34 and a
window pane 62. When the pyramid shaped shelter is assembled, the tops of
the four triangular sides 16, 20, 24, and 28 will meet to form the apex 30
of the shelter. FIG. 2 also shows the four steel beams 29 and 31 which
form the square base frame of the shelter. The cross-section of the beam:s
29 and 31 are rectangular except for their outer sides which slope down at
a 60 degree angle. Cross-bracing metal I-beams 32 and 33 that reinforce
the square base frame of the shelter are shown. Three-sided metal brackets
40 that hold the base frame together and provide holes 42 for anchoring
the shelter in the ground are shown. The auger bolts 44 that are placed
through the bracket holes 42 and screwed into the ground to hold the
shelter firmly in place also are shown. Finally, the four wooden floor
boards 12 that are placed on top of the square base frame inside the
shelter to make one big square floor are shown. Each of the floor boards
12 measures almost four feet along their sides. Standard machine bolt
technology well known in the art is used to bolt the four triangular
shaped sides of the shelter to the base frame and to each other.
FIG. 3 shows a front view of the tornado shelter with the doors closed and
latched. The front side 14 of the shelter 10 is visible. The doors 46 and
50 are held to the front side 14 with the hinges 48 and 52, respectively.
The surfaces of the doors 46 and 50 are flush with the surface of the
front face or side 14 of the shelter, the said doors fitting snug against
the recessed opening 39 of the shelter entrance. The components of the
door latch assembly are also shown; these are the latch arm 70 with its
handle 72 placed inside the latch 56. Also visble in this figure are the
air inlet vents 19 with their air ingress panels 21 and their inward
opening air inlet lids 23. The auger bolts 44 which hold the shelter
firmly to the ground 13 are shown. The distance 38 from the apex 30 of the
shelter along its edge to the bottom of the front side 14 is exactly eight
feet.
FIG. 4 shows a front view of the tornado shelter with the doors open. Thus,
the door latch arm 70 has been removed from the latch 56 and the doors 46
and 50 have been swung open on their hinges 48 and 52 respectively. We see
the recessed opening 39 of the entrance 22 through the front side 14 of
the shelter 10 which is held firmly to the ground by the augur bolts 44.
FIG. 5 shows a side view of the tornado shelter. This side 18 of the
shelter 10 is identical to two other sides of the shelter. Seen is the
trapezoid-shaped window pane 62 which is made out of shatter-resistant
clear PLEXIGLAS. The surface of the window pane 62 is flush with the
surface of this side 18 of the shelter by sitting in a recessed opening 66
of the window opening. The window pane 62 is attached to the shelter side
18 by a hinge 60. The windows of this shelter open outward to equalize air
pressure when the air pressure outside the shelter is lower than the air
pressure inside the shelter. The windows and doors of the shelter 10 are
designed to be flush with the surface of the shelter to decrease wind
resistance against the outside of the shelter. Also shown in this figure
are the auger bolts which hold the shelter firmly to the ground. The
wooden floor boards 12 are not visible in this figure because they are
recessed from the bottom edges of the pyramid by the height of the
thickness of the steel beams which form the base frame of the shelter.
This is desirable because the floor is thereby kept dry even if ground
water leaks under the bottom of the shelter. The length 38 from the apex
30 of the pyramid to the bottom of the pyramid along the edge shown is
exactly eight feet. Since the sides of the shelter 10 are equilateral
triangles, the length of the base 36 of the side 18 is also exactly eight
feet.
FIG. 6 shows a top view of the tornado shelter. The tops 16, 20, 24, and
28, respectively, of the four triangular sides 14, 18, 22, and 26, of the
shelter 10 all meet at the apex 30 of the shelter. The front doors 46 and
50 are shown as are the window assemblies 34. Also shown are the air inlet
vents 19 with their air ingress panels 21.
FIG. 7 shows a bottom view of the tornado shelter. The square base frame of
the shelter 10 is formed by four steel beams, two long beams 29 and two
shorter beams 31. These beams 29 and 31 have a rectangular cross-section
except for their outer side which is 60 degrees from the horizontal. The
frame beams are held together at the corners of the frame by being bolted
together with three-sided brackets 40 and bolts 37. In addition the square
frame is reinforced by steel I beams 32 and 33 and bolts 35. The four
wooden floor boards 12 that go to make up the total floor of the shelter
10 are shown. Finally, the steel sides 14, 26, 22, and 18, of the shelter
10 are shown.
FIG. 8 shows a cross-sectional view of the tornado shelter taken along the
lines 8--8 of FIG. 6. Shown are the apex 30 of the shelter where the tops
20 and 28 of the sides 14 and 26 meet. The window assemblies 34 are shown
with their window panes 62 which sit in recessed borders 66 and which
panes are held to the shelter sides with hinges 60. The doors 46 and 50
are shown sitting in the entranceway's recessed border 55. The doors 46
and 50 are closed and latched together with the latch assebly 58. The
latch assembly 58 consists of the latch arm 70 with its handle 74 and the
latch 56. It should be noted here that the latch assembly 58 has identical
outside and inside components (it is, in a sense a double latch, one latch
inside and one latch outside). The double aspect of this latch mechanism
will become more apparent in FIG. 11. However, returning to FIG. 8, this
drawing also shows the air inlet vents 19 with their air ingress panels 21
and their inward opening air inlet lids 23 which are held onto the front
side 14 of the shelter 10 by the hinges 27. At the bottom of FIG. 8 are
shown the wooden floor boards 12 that provide flooring for the shelter.
The floor boards 12 rest on the square base frame of the shelter made from
steel beams 29 and 32. Thus the floor is slightly elevated from the ground
13 which keeps the floor dry in case of water seepage uderneath the
shelter. The base frame is held down firmly to the ground 13 by auger
bolts 44 which screw into the ground through holes in the three-sided
brackets 40.
FIG. 9 shows a cross-sectional view of an air inlet vent of the tornado
shelter taken along the lines 9--9 of FIG. 6. The front side 14 of the
shelter slopes upward at a 60 degree angle to the horizontal and connects
with air ingress panels 21 and 25 which are part of the air inlet vent 19.
The vent 19 has an inward opening lid 23 held onto the side 14 by the
hinge 27. The force of gravity naturally tends to keep the lid 23 closed
but greater air pressure outside the shelter than inside the shelter will
force the lid open enough to equalize the outside and inside air pressure.
A similar principle is at work with the window assemblies 34 shown
previously. The force of gravity naturally tends to keep the window panes
62 closed but air pressure inside the shelter greater than outside the
shelter will force the window panes 62 open enough to equalize inside and
outside air pressure.
FIG. 10 shows a three-sided bracket used to hold the base frame of the
shelter together and to secure the shelter to the ground with augur bolts.
The bracket 40 has two holes 41 for machine bolts to rigidly connect two
base frame beams together and a single hole 42 for an auger bolt to screw
the bracket 40 and its bolted beams firmly to the ground.
FIG. 11 shows a cross-sectional view of the shelter door latch mechanism
taken along the lines 11--11 of FIG. 8. In FIG. 11, the space at the top
part of the figure represents the space outside the shelter and the space
at the bottom part of the figure represents the space inside the shelter.
Thus, in FIG. 11, are shown the two shelter doors 46 and 50 with their
interlocking lips 54 and 56, respectively. The door latch assembly 58 is
comprised of the latching arm 70 which has a shape somehat like the Greek
letter omega with the "legs" of the omega serving as the latching arm
handles 72 and 74. The latching arm 70 is permanently housed in the door
50 by passing through a hole 68 in the door 50. Extending through both
side of door 46 is the latch 56 itself which latches the locking arm 70
both inside the shelter and outside the shelter. Thus, the closed doors of
the shelter can always be opened either from the inside or outside of the
shelter by taking one of the handles 72 and 74 of the arm 70 and rotating
the arm at least 90 degrees in an upward direction.
The way that this shelter is to be used is elemental. When a family of,
say, four to five people look out of their house to see a tornado coming
in their direction, they quickly go to the shelter, open up the doors,
enter, and once inside they close and latch the doors. The people can see
the tornado coming and going through the shelter windows. When the tornado
has gone away, the people open the door latch, then the doors and go back
to their home or what may be left of it and attempt to resume their lives
as normal.
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